Homogeneous ternary silicone hybrid materials comprising phenolic resins and disubstituted polysiloxane with crosslinked epoxy resin were conveniently prepared by the photoinduced cationic ring-opening copolymerization of twin monomer (2-methyl-2-(3-glycidoxypropyl)-4H-1,3,2-benzodioxa-siline, MGS) and epoxy monomer (3,4-epoxycyclohexylmethyl-3′,4′-epoxycyclohexane, EPOX). The two monomers had good compatibility, and no phase separation occurred during long-term storage. Under the excitation, the cationic ring-opening polymerization of MGS rapidly occurred to form polysiloxane and phenolic resin, and EPOX played the role of a crosslinking agent. The reaction mechanism was explicitly proven by infrared spectroscopy, solid-state 13C and 29Si nuclear magnetic resonance spectroscopy, surface contact angle, and X-ray photoelectron spectroscopy. SEM showed that the photocured film had no macroscopic phase separation, and the film had very good light transmittance. This study provided a new rapid method of preparing highly transparent ternary hybrid materials at room temperature through photopolymerization. It has potential applications in the fields of coatings, photoresists, and optical devices.
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